JPH0557556U - Electromagnetic actuator - Google Patents

Abstract

(57) [Abstract] [Purpose] The movable core that can move toward and away from the fixed core has a mounting hole, and the movable core is attached to the outer periphery of the rod supported by the fixed core and inserted into the mounting hole. In an electromagnetic actuator in which the peripheral edge of the mounting hole of the fixed core is caulked and coupled, it is possible to avoid individual differences in the suction force of the movable core to the fixed core, and to ensure a stable stroke of the movable core. . A recess 34 is provided at the center of the end surface of the movable core 13 on the fixed core 7 side, and the opening edge of the mounting hole 35 to the recess 34 is caulked to the outer periphery of the rod 14.

Description

[Detailed description of the device]

[0001]

[Industrial application]

 According to the present invention, a mounting hole is provided in a movable core that can move toward and away from a fixed core, and the mounting hole of the movable core is fixed to the outer periphery of a rod supported by the fixed core and inserted into the mounting hole. The present invention relates to an electromagnetic actuator in which a peripheral edge of a core is caulked.

[0002]

[Prior Art]

 Conventionally, in such a device, as shown in FIG. 5, the fixed core 7 side opening end edge of the mounting hole 35 in the movable core 13 ′ is caulked to engage with the locking groove 36 of the rod 14 inserted into the mounting hole 35. By combining them, the rod 14 is fixed to the movable core 13 '.

[0003]

[Problems to be solved by the device]

 In the above-mentioned conventional one, the end surface of the movable core 13 'on the side of the fixed core 7 is formed flat, and the movable core 13' is separated from the fixed core 7 by the unevenness caused by the caulking. And the air gap between the fixed cores 7 varies. That is, the air gap A of the portion corresponding to the convex portion generated by the caulking process.₁', And the air gap A at the portion corresponding to the concave portion formed by the caulking process. ₃ ', And the air gap A at the part that is not affected by caulking₂And occur between the fixed core 7 and the movable core 13 ', respectively.₁′ <A₂<A ₃ ’

By the way, the attraction force of the movable core 13 ′ to the fixed core 7 changes in a quadratic curve as shown in FIG. 6 according to the change of the air gap between the movable core 13 ′ and the fixed core 7. The air gap A ₂ is set as a set value in a region where the suction force is relatively large, but the air gaps A ₁ ′ and A ₃ ′ are changed with each caulking process. There is a variation in the air gap in a region where the change in the suction force is relatively large, so that there is individual difference in the suction force as a whole.

Further, since the convex portion projecting to the fixed core 7 side is formed on the movable core 13 'by the above-mentioned caulking connection, when the stroke of the movable core 13' is small, the required movable core 13 ' The stroke may not be secured due to the presence of the convex portion, and the amount of protrusion of the convex portion is not constant, so that it is difficult to secure a stable stroke of the movable core 13 '.

The present invention has been made in view of such circumstances, and it is possible to avoid the occurrence of individual differences in the suction force of the movable core to the fixed core, and to obtain a stable stroke of the movable core. It is an object of the present invention to provide an electromagnetic actuating device as described above.

[0007]

[Means for Solving the Problems]

 In order to achieve the above object, according to the present invention, a recess is provided at the center of the end surface of the movable core on the fixed core side, and the edge of the opening of the mounting hole to the recess is caulked to the outer circumference of the rod.

[0008]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings.

1 to 4 show one embodiment of the present invention. FIG. 1 is a vertical cross-sectional view of an electromagnetic switching valve to which the present invention is applied, and FIG. 2 is an enlarged view of a main part of FIG. 3 is a sectional view corresponding to FIG. 2 showing a caulking process state, and FIG. 4 is a diagram showing a change in suction force with respect to the air gap.

First, in FIG. 1, the solenoid operated directional control valve 1 comprises a valve operating unit 3 and an electromagnetic operating device 2 assembled therein.

In the electromagnetic actuator 2, the casing 4 has a tubular body 5 having both ends opened, a yoke 6 closing one opening of the tubular body 5, and another opening of the tubular body 5 closed. It is composed of a fixed core 7.

The yoke 6 has a sliding hole 12 that is open at the end face of the inwardly projecting portion 10 and faces the inwardly projecting portion 11 of the fixed core 7, and both inwardly projecting portions 10 and 11 are non-magnetic. The coil 8 which is fitted to both ends of the tubular body 9 and surrounds the non-magnetic tubular body 9 is housed in the tubular body 5. A movable core 13 is slidably fitted in the sliding hole 12. Further, one end side of the rod 14, whose middle portion is fixed to the movable core 13, movably penetrates the fixed core 7 and is slidably supported by a sliding bearing 16 mounted on the fixed core 7, The other end of 14 is slidably supported by the yoke 6 via a sliding bearing 15.

In the valve operating unit 3, the valve housing 17 has a stepped hole 18 opening at one end surface, and the large diameter portion 19 of the stepped hole 18 is screwed with the tubular body 5 of the electromagnetic actuator 2. In addition, the outwardly projecting portion 21 of the fixed core 7 is fitted to the middle diameter portion 20, and one end portion of the rod 14 is located at the small diameter portion 22.

Further, the valve housing 17 has a slide hole 23 having one end communicating with the small diameter portion 22 and a working fluid flow chamber 24 having one end communicating with the other end of the slide hole 23. It is provided on the same axis as the stepped hole 18. The rod-shaped main body portion 26 of the valve body 25 is slidably fitted in the sliding hole 23, and a large-diameter stopper 27 connected to the main body portion 26 is arranged in the flow chamber 24. .. A spring 28 is contracted between the outer end surface of the stopper 27 and one inner end surface of the circulation chamber 24 facing the stopper 27, and the elastic force of the spring 28 causes the inner end surface of the stopper 27 to face the circulation chamber. The valve body 25 comes into contact with one end of the rod 14 while coming into contact with the other inner end surface of 24.

In the valve housing 17, one end is opened to the sliding hole 23 and the other end is connected to the working fluid supply source. An introduction path 29 is provided, and one end is opened to the sliding hole 23 and the other end is opened. A discharge passage 30 that communicates with the fluid reservoir and a flow passage 31 that has one end communicating with the flow chamber 24 and the other end communicating with a control device (not shown) are provided. Further, the valve body 25 has a flow passage 32, one end of which communicates with one of the introduction passage 29 and the discharge passage 30, and the other end of which communicates with the communication chamber 24 at all times.

In such an electromagnetic switching valve 1, when the coil 8 is demagnetized, the valve body 25 is retracted toward the electromagnetic operating device 2 side by the elastic force of the spring 28 as shown in FIG. The flow passage 32 of the body 25 communicates with the outlet passage 30.

When the coil 8 is excited, the movable core 13 is attracted to the fixed core 7 side against the elastic force of the spring 28, and the rod 14 moves the valve body 25 forward. The flow passage 32 of is communicated with the introduction passage 29.

By the way, the intermediate portion of the rod 14 is fixed to the movable core 13, and its fixing structure will be described in detail below.

In FIG. 2, the movable core 13 is provided with a circular recess 34 at the center of the end surface on the fixed core 7 side, and a mounting hole 35 for allowing the rod 14 to penetrate therethrough is coaxially provided. On the other hand, on the outer circumference of the rod 14, a locking groove 36 is provided over the entire circumference at a position corresponding to the opening end of the mounting hole 35 to the recess 34, and the locking groove 36 is provided on the fixed core 7 side. It is composed of a taper surface 36a which becomes smaller in diameter as it goes, and a locking surface 36b which is orthogonal to the axis of the rod 14 and continues to the small diameter end of the taper surface 36a. By caulking, the movable core 13 is engaged with the locking surface 36b of the locking groove 36.

A tool 37 as shown in FIG. 3 is used for the caulking. The tool 37 has a sliding hole 38 into which the rod 14 is slidably fitted, and is formed into a cylindrical shape. The caulking portion 37a has a knife-edge-shaped vertical cross section at its tip. Is provided. Moreover, a large-diameter portion 38a is provided in the sliding hole 38 at a portion corresponding to the crimped portion 37a to allow the crimped portion of the crimped portion 37a to be swollen.

In caulking with the tool 37, the rod 14 is fitted into the sliding hole 38 with the position of the rod 14 relative to the movable core 13 being fixed, and the tool 37 is moved along the rod 14. Is moved closer to the movable core 13, and a shocking pressing force is applied to the tool 37. As a result, the caulked portion 37a bites into the movable core 13, and the opening edge of the attachment hole 35 of the movable core 13 to the recess 34 is pushed out to the rod 14 side and engages with the locking groove 36.

The end surface of the movable core 13 on the side opposite to the fixed core 7 is formed in a flat shape, and by caulking the opening edge of the mounting hole 35 to the end surface with the tool 37, the rod 14 is attached. Part of the movable core 13 bites into the provided locking groove 39. Therefore, the rod 14 is fixed to the movable core 13 by caulking both ends of the movable core 13 to the locking grooves 36 and 39, respectively.

To explain the operation of this embodiment, a recess 34 is provided on the end surface of the movable core 13 on the fixed core 7 side, and the opening edge of the mounting hole 35 to the recess 34 locks the rod 14. It is caulked to the groove 36. For this reason, the air gap between the movable core 13 and the fixed core 7 varies when the movable core 13 is separated from the fixed core 7. However, the portion where the air gap varies is separated from the fixed core 7. Is a relatively large portion and the change in the suction force is relatively small, so that it is possible to avoid individual differences in the suction force of the movable core 13 to the fixed core 7 as much as possible.

That is, as shown in FIG. 4, the suction force changes in a quadratic curve with respect to the change of the air gap, and the suction force is applied to the air gap A ₂ in a portion where the influence of caulking does not occur. If a relatively large area is set, the air gap A ₁ at the concave part created by the caulking process and the air gap A ₃ at the convex part created by the caulking process are larger than the set air gap A ₂ described above. Since the change of the suction force is relatively small, even if individual differences occur in the air gaps A ₁ and A ₃ , the influence on the suction force as a whole is small, and therefore the movable force from the fixed core 7 is small. It is possible to avoid as much as possible individual differences in the suction force exerted on the core 13 as a whole, and it is possible to obtain a substantially constant suction force in any electromagnetic actuator 2. .

Moreover, since the convex portion generated by the caulking is in the concave portion 34 provided in the movable core 13 and does not protrude from the end surface of the movable core 13 on the fixed core 7 side, the stroke of the movable core 13 is stabilized. Can be secured.

[0026]

[Effect of the device]

 As described above, according to the present invention, since the concave portion is provided in the center of the fixed core side end surface of the movable core, and the opening end edge of the mounting hole to the concave portion is caulked to the outer periphery of the rod, the caulking coupling is performed. It is possible to avoid the occurrence of individual differences in the attraction force of the movable core to the fixed core due to the effect of unevenness, and it is possible to obtain an almost constant attraction force with any electromagnetic actuator, and also to secure a stable stroke of the movable core. can do.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of an electromagnetic switching valve to which the present invention is applied.

FIG. 2 is an enlarged view of a main part of FIG.

FIG. 3 is a sectional view corresponding to FIG. 2, showing a caulking state.

FIG. 4 is a diagram showing a change in suction force with respect to an air gap.

5 is a cross-sectional view corresponding to FIG. 2 of the prior art.

FIG. 6 is a diagram showing a relationship between an air gap and a suction force in a conventional technique.

[Explanation of symbols]

 2 Electromagnetic actuator 7 Fixed core 13 Movable core 14 Rod 34 Recessed portion 35 Mounting hole

Claims (1)

[Scope of utility model registration request] 1. A mounting hole (35) is provided in a movable core (13) that can move toward and away from a fixed core (7), and the mounting hole (35) is supported by the fixed core (7).
The movable core (1
In the electromagnetic actuator in which the fixed core (7) side peripheral portion of the mounting hole (35) of (3) is caulked and coupled, the movable core (1)
A concave portion (34) is provided in the central portion of the end surface of the fixed core (7) side of 3), and an opening end edge of the mounting hole (35) to the concave portion (34) is caulked and coupled to the outer periphery of the rod (14). An electromagnetic actuation device characterized by.